Cyclobutene, synthesis

Ring expansion of cyclopropylcarbinol to cyclobutanol is the basis of an efficient cyclobutene synthesis (equation 25). An elegant approach to polycyclic hydrocarbons is realized by a cascade of cyclopropylcarbiny 1-cyclobutyl rearrangements (equation 26) . 

Cyclobutanol was obtained by deamination of (cyclopropylmethyl)amine in 40% yield. Cyclopropylmethanol was a major byproduct in this reaction. A more efficient synthesis of cyclobutanol is the acid-catalyzed rearrangement of cyclopropylmethanol with aqueous hydrochloric acid " cyclobutanol was obtained in 72% yield containing a trace of the allyl alcohol. This transformation forms the basis of an efficient cyclobutene synthesis. ... 

Cyclobutanediol, 1,2-dimethyl- synthesis, 53 Cyclobutanone, 2-hydroxy- synthesis, 54 Cyclobutanones synthesis, 77, 79, 335-336 Cyclobutene synthesis, 142... 

Scheme 3-108. Cyclobutene synthesis using propargylsilanes and a,ji-unsaturated ketones.

Scheme 1. Schreiber s oxy-Cope rearrangement/cyclobutene ring opening strategy for the synthesis of cyclodecadienone 8.

Compound 6 is a pivotal intermediate in Schreiber s synthesis. It was hoped that the conspicuous and strained bridgehead cyclobutene substructure in 6 would undergo a conrotatory electrocyclic ring opening upon thermolysis to give an isomeric 1,3-diene (8, Scheme 1). In the event, when a solution of cyclobutene 6 in toluene is confined to a sealed tube and heated to 180°C for 12 h, a stereoisomeric mixture of 1,3-dienes 7 and 8 is produced in an excellent yield of 95% (7 8 ca. 5 1). Finally, irradiation of the 5 1 mixture of cis-7 and trans-8, or of each independently, establishes a photostationary state in which the desired trans isomer 8 predominates (8 7 ca. 10 1). 

The synthesis of 2-chloro-2,3,3-trifluorocyclobutyl acetate illustrates a general method of preparing cyclobutanes by heating chlorotrifluoroethylene, tetrafluoroethylene, and other highly fluorinated ethylenes with alkenes. The reaction has recently been reviewed.11 Chlorotrifluoroethylene has been shown to form cyclobutanes in this way with acrylonitrile,6 vinylidene chloride,3 phenylacetylene,7 and methyl propiolate.3 A far greater number of cyclobutanes have been prepared from tetrafluoroethylene and alkenes 4,11 when tetrafluoroethylene is used, care must be exercised because of the danger of explosion. The fluorinated cyclobutanes can be converted to a variety of cyclobutanes, cyclobutenes, and butadienes. 

Intermolecular [4C+2S] cycloaddition reactions where the diene moiety is contained in the carbene complex are less frequent than the [4S+2C] cycloadditions summarised in the previous section. However, 2-butadienylcarbene complexes, generated by a [2+2]/cyclobutene ring opening sequence, undergo Diels-Alder reactions with typical dienophiles [34,35] (Scheme 59). Also, Wulff et al. have described the application of pyranylidene complexes, obtained by a [3+3] cycloaddition reaction (see Sect. 2.8.1), in the inverse-electron-demand Diels-Alder reaction with enol ethers and enamines [87a]. Later, this strategy was applied to the synthesis of steroid-like ring skeletons [87b] (Scheme 59). 

A cyclobutene ROCM sequence was also used in a synthesis of racemic sporochnol (410), a naturally occurring feeding deterrent toward herbivorous fish (Scheme 80) [170]. Exposing cyclobutene 406 (0.01 M in boiling 1,2-dichloroethane) in the presence of ethylene to second-generation catalyst C (8 mol%) led to 1,5-diene 407 in 73% yield, along with 9% of the homodimer derived from 407 by involving the less hindered double bond. Site-selective hy-... 

Ohno M, Eguchi S (2006) Directed Synthesis of Biologically Interesting Heterocycles with Squaric Acid (3,4-Dihydroxy-3-cyclobutene-l,2-dione) Based Technology. 6 1-37 Okino T (2006) Heterocycles from Cyanobacteria. 5 1-19... 

Reinhoudt et al.53) have reported the first synthesis of a monocyclic thiepin stabilized by electronic effects of the substituents. This synthesis utilizes the idea described in Section 2.3.3. 3-Methyl-4-pyrrolidinothiophene (85a) was treated in deuteriochloroform at —30 °C with dimethyl acetylenedicarboxylate. H-NMR monitoring of the reaction indicated that a [2 + 2]cycloaddition proceeded slowly at this temperature giving the 2-thiabicyclo[3.2.0]heptadiene (86a) which rearranged via ring opening of the cyclobutene moiety to the 4-pyrrolydinylthiepin (87a). At the... 

In their synthesis of spirocyclopropanated oxazolines (see Section 2.1), the de Meijere group obtained initially unexpected cyclobutene-annelated pyrimidones 2-569 by reaction of the cyclopropylidene derivative 2-567 with the amidines 2-568. In this fourfold anionic transformation a Michael addition takes place to furnish 2-570, which is followed by an isomerization affording cyclobutenecarboxylates 2-572 and a final lactamization (Scheme 2.128) [294]. 

The forerunner in the Co-catalyzed [2+2+2] cycloaddition domino processes was that identified by Vollhardt and colleagues [273], with their excellent synthesis of steroids. Reaction of 6/4-1 with [CpCo(CO)2] gave compound 6/4-3 with an aromatic ring B via the intermediate 6/4-2. In this process, trimerization of the three alkyne moieties first takes place, and this is followed by an electrocyclic ring opening of the formed cyclobutene to give o-quinodimethane. This then undergoes a Diels-Alder reaction to provide the steroid 6/4-3 (Scheme 6/4.1). 

Cycloaddition of the carbene chromium complexes 97 with CO incorporation provides a versatile method for naphthol synthesis, in which the metallacy-clic intermediates 99 are involved [47]. An alternative entry to 101 is achieved by metal carbonyl-catalyzed rearrangement of the cyclopropenes 98 via the same metalla-cyclobutenes 99 and vinylketene complexes 100 [52], Mo(CO)6 shows a higher activity than Cr(CO)6 and W(CO)6. The vinylketene complex 103 is formed by the regioselective ring cleavage of 1,3,3-trimethylcyelopropene 102 with an excess of Fe2(CO)9 [53]. (Scheme 35 and 36)... 

The single crystal X-ray structure of the enantiopure tetrahydro oxepin-2-one 61, a mimic of steroidal androgens, has been reported <06ZN(B)111>. A new procedure has been described for the synthesis of substituted furano-fused oxepines based on expoxidation of strained fused cyclobutenes followed by thermal rearrangement <06OL5183>. 

The sesquiterpenes (+)-10-epijuneol466, (4.54) and ( )-calameon467) (4.55) have been obtained via addition of 6-isopropyl-3-methyl-2-cyclo-hexenone to cyclobutene derivatives. A similar sequence has been applied for the synthesis of an eudesmane precursor (4.56)468). 

The synthesis of cavity systems of the alternative northern type, outlined in Scheme 24, involved the Diels-Alder addition of tetrafluoioisoindole 136 to the cavity Ws-(cyclobutene-l, 2-diester) 135 <97T3975> to produce the cavity structure 137. The stereoselectivity of the Diels-Alder step, established in model compound reactions <98TL3083>, ensured that the A-bridges were positioned with inward-facing geometry. 

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